CN102294350B - System and method for resorting organic polluted soil - Google Patents

System and method for resorting organic polluted soil Download PDF

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CN102294350B
CN102294350B CN 201110203862 CN201110203862A CN102294350B CN 102294350 B CN102294350 B CN 102294350B CN 201110203862 CN201110203862 CN 201110203862 CN 201110203862 A CN201110203862 A CN 201110203862A CN 102294350 B CN102294350 B CN 102294350B
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CN102294350A (en
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郭书海
李婷婷
王彦华
刘昆鹏
李凤梅
李刚
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Institute of Applied Ecology of CAS
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Institute of Applied Ecology of CAS
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Abstract

The invention relates to a system and a method for resorting organic polluted soil, which possesses a symmetric electric field structure formed by M*N electrode matrixs, spots which have equal distance to each electrode have the same electric field strength in a restoration area; a symmetrical electric field form is used during a restoration process which means spots which have equal distance to each electrode have the same electric field strength in a restoration area. The electrodes are arranged base on a grid mode, electric control is carried out to the electrodes in the restoration area, a periodical switching to the anode and cathode of the polarity is performed, an operation mode of switching row/array group electrode is performed through a mode of electrically scanning. According to the invention, the symmetrical electric field is capable of increasing the electric field, eliminating and restoring the blind angle, and solving the acidifying problem of the soil anode simultaneously.

Description

A kind of organic pollution soil repair system and method
Technical field
The present invention relates to the recovery technique of organic polluted soil, specifically a kind of moving repair system and method that adopts symmetrical electric field that organic polluted soil is repaired.
Background technology
The electronic reparation of organic polluted soil is a kind of reinforcement recovery technique that grows up the nineties in 20th century.By the inert electrode that inserts in the contaminated soil, form DC electric field, under the effect of multiple electrokinesis, improve the activity of microorganism, optimize reparative factor, accelerate the degraded of organic pollution.Compare electric repair method with other technologies and have efficiently, the advantage such as safety.
Restriction organic polluted soil electronic repairing effect has two main unfavorable factors, at first is that the soil environment pH value that causes of anode acidifying is unbalanced.Reason is after applying DC electric field, and the redox reaction of hydrone occurs near electrode, generates respectively H in anode region and cathodic region +Ion and OH -Ion, and form sour peak and alkali peak, make soil be divided into acid and the alkalescence zone.Affect the Soil Microorganism activity and then reduce removal of pollutants efficient; Next is the electric field utilization rate removal of pollutants efficient that reduced on the low side.But the mode of utilizing of present existing electrode matrix arrangement mode and electrode all fails fundamentally minimum to be down in the invalid active region of electric field.And the degradation efficiency positive correlation of effective active area, electric-field intensity and pollutant in the restoring area.
In order to solve anode acidifying problem a lot of control methods have been proposed at present, as: carry out the circulation (Lee and Yang., 2000) of electrolyte at two interpolars; Add cation-exchange membrane (Li et al., 1998); Near zone, the two poles of the earth, add buffer solution (Saichek et al., 2003); Electrode approximatioss control changes of pH (Shen et al., 2007).These methods all can solve anode acidifying problem to a certain extent, but generally are to have that complicated operation, control difficulty are large, the high in cost of production defective.In order to improve the electric field utilization rate, increase the electric field action area, some solutions have been proposed at present, form electrode matrix as adopting one dimension/two-dimensional electrode configuration, the method for way traffic (Wang Hui etc., 2006).But therefore present electrode way traffic method exists in processing unit and repairs the dead angle owing to polarity between adjacent two electrodes is always identical, causes the electric field utilization rate low.
Summary of the invention
For problems of the prior art, the object of the invention is to provide a kind of can overcome the electronic repair system of organic polluted soil and the method for repairing the dead angle, improving the electric field utilization rate.
To achieve these goals, technical scheme of the present invention is as follows:
Restorative procedure of the present invention: repair process adopts symmetrical electric field form, that is: the some electric-field intensity that equates with each electrode distance in the restoring area is identical, and the migration form of material is identical in electric field; Arrange electrode based on the grid mode, electrode in the restoring area is implemented electronic control, within the adjustable cycle, electrode is carried out polarity and switch; Make each electrode intermittently be in the higher anode state of remediation efficiency; Make each single electrode intermittently be in the higher anode state of remediation efficiency when avoiding the anode acidifying, effectively utilize area in order to increase electric field, eliminate and repair the dead angle;
Described symmetrical electric field refers in repairing efficiency, and the some electric-field intensity that equates with each electrode distance in the restoring area is identical; The migration form of material is also identical in electric field; Described polarity is switched by the mode of electric scanning and is gone/conversion of row electrode group;
Described electronic control is that electrode in the matrix is connected respectively in the electric shock of relay, and relay is connected with PLC, by the adhesive of PLC control relay, realizes that polarity of electrode switches, current impulse is implemented;
In repair process, add degradation bacteria and the required nutrient of microorganism for pollutant, strengthen electronic repairing effect, can increase the removal efficient of organic pollution.
Wherein said degradation bacteria can be chosen according to the contaminated soil type difference of repairing.Take oil-polluted soils as example, can be selected from Arthrobacter globiformis (Arthrobacter globiformis), crabstick tumefaciens (Clavibacter xyli), wilting bacillus pumilis (Curtobacterium flaccumfaciens), bacillus subtilis (Bacillus subtilis), pseudomonas aeruginosa (Pseudomonas aeruginosa), bacillus (Bacillus sp.) is combined into composite bacteria agent capable, mixes by the concentration equal proportion;
Described nutrition can be selected from a kind of or its combination in inorganic nitrate class, the inorganic phosphate salt, is interpolation in 100: 1 by N/P.
Repair system of the present invention comprises:
One breaker, breaker connects external power supply;
One Switching Power Supply, Switching Power Supply input termination breaker, output 24V and 0V voltage link to each other with Programmable Logic Controller;
One Programmable Logic Controller, Programmable Logic Controller has control program, by control program whole system is controlled;
Control relay, the control relay coil electrode receives the Controlled by Programmable Controller signal; Also comprise the power supply relay that links to each other with M * N matrix electrodes and control relay;
Wherein, the power supply relay coil electrode that links to each other with transversely arranged electrode in the described power supply relay is received an end of the control relay normally opened contact that links to each other with transversely arranged electrode; The power supply relay coil electrode that links to each other with the longitudinal arrangement electrode is received the other end of the control relay normally opened contact that links to each other with the longitudinal arrangement electrode; 1st, an end of 3,5,7,9,10 control relay normally opened contacts is connected to the Switching Power Supply positive pole, and an end of the 2nd, 4,6,8 control relay normally opened contacts is connected to the Switching Power Supply negative pole; The 1st receives with horizontal odd number with the other end of 2 control relay normally opened contacts and to arrange on the power supply relay that electrode links to each other, the 3rd receives with horizontal even numbers with the other end of 4 control relay normally opened contacts and to arrange on the power supply relay that electrode links to each other, the 5th receives vertical odd number with the other end of 6 control relay normally opened contacts arranges on the power supply relay that electrode links to each other, and the 7th receives on the power supply relay that vertical even numbers arrangement electrode links to each other with the other end of 8 control relay normally opened contacts; Laterally, vertically adjacent two electrodes respectively by being that the two ends of power supply relay normally opened contact link together;
Described electrode diameter is 0.5cm-5cm, and length is 6cm-150cm; At two power supply relays of each electrode configuration, link to each other with the power supply relay of adjacent transverse, longitudinal electrode and the Switching Power Supply of control row, column conversion by wire respectively;
Wherein adjacent two electrodes spread length in restoring area is 0.20m-1.5m;
The point electric-field intensity that wherein each interelectrode distance is equal is identical, is symmetrical structure on space and the field intensity;
Described control program flow process is as follows:
Step 1, parameters do not arrange the wait parameters such as parameter;
Step 2, judge whether start button is pressed, as press system mode and show automatically in service and execution in step three, otherwise system shows and waits for and press start button in the standby;
Step 3, judge whether stop button is pressed, as press stop button, system mode shows in the standby, and execution in step two; Otherwise execution in step four;
Step 4, transverse and longitudinal zero clearing switching time;
Step 5, horizontal odd number electrode add positive voltage, laterally the even numbers electrode adds 0V;
Step 6, judge whether to reach transverse and longitudinal switching time, if reach execution in step seven, otherwise execution in step five and step 6;
Step 7, transverse and longitudinal zero clearing switching time;
Step 8, vertical odd number electrode add positive voltage, vertically the even numbers electrode adds 0V;
Step 9, judge whether to reach transverse and longitudinal switching time, if reach execution in step ten, otherwise execution in step eight and step 9;
Step 10, transverse and longitudinal zero clearing switching time;
Step 11, horizontal odd number electrode add 0V, laterally the even numbers electrode adds positive voltage;
Step 12, judge whether to reach transverse and longitudinal switching time, if reach execution in step 13, otherwise execution in step 11 and step 12;
Step 13, transverse and longitudinal zero clearing switching time;
Step 14, vertical odd number electrode add 0V, vertically the even numbers electrode adds positive voltage;
Step 15, judge whether to reach transverse and longitudinal switching time, if reach execution in step four, otherwise execution in step 13 and step 14;
Described control flow can also for:
Step 1, parameters do not arrange the wait parameters such as parameter;
Step 2, judge whether start button is pressed, as press system mode and show automatically in service and execution in step three, otherwise system shows and waits for and press start button in the standby;
Step 3, judge whether stop button is pressed, as press stop button, system mode shows in the standby, and execution in step two; Otherwise execution in step four;
Step 4, transverse and longitudinal zero clearing switching time;
Step 5, judge whether to reach the pulse power-up time, if do not reach, laterally the odd number electrode adds positive voltage, laterally the even numbers electrode adds 0V, otherwise execution in step six;
Step 6, the zero clearing of pulse power-off time;
Step 7, judge whether to reach the pulse power-off time, if do not reach, laterally odd number electrode and even numbers electrode stop to power up, otherwise execution in step eight;
Step 8, the zero clearing of pulse power-up time;
Step 9, judge whether to reach transverse and longitudinal switching time, if reach execution in step ten, otherwise return step 5;
Step 10, transverse and longitudinal zero clearing switching time;
Step 11, judge whether to reach the pulse power-up time, if do not reach, vertically the odd number electrode adds positive voltage, vertically the even numbers electrode adds 0V, otherwise execution in step 12;
Step 12, the zero clearing of pulse power-off time;
Step 13, judge whether to reach the pulse power-off time, if do not reach, vertically odd number electrode and even numbers electrode stop to power up, otherwise execution in step 14;
Step 14, the zero clearing of pulse power-up time;
Step 15, judge whether to reach transverse and longitudinal switching time, if reach execution in step 16, otherwise return step 11;
Step 10 six, transverse and longitudinal zero clearing switching time;
Step 10 seven, judge whether to reach the pulse power-up time, if do not reach, laterally the odd number electrode adds 0V, laterally the even numbers electrode adds positive voltage, otherwise execution in step 18;
Step 10 eight, the zero clearing of pulse power-off time;
Step 10 nine, judge whether to reach the pulse power-off time, if do not reach, laterally odd number electrode and even numbers electrode stop to power up, otherwise execution in step 20;
Step 2 ten, the zero clearing of pulse power-up time;
Step 2 11, judge whether to reach transverse and longitudinal switching time, if reach execution in step 22, otherwise return step 10 seven;
Step 2 12, transverse and longitudinal zero clearing switching time;
Step 2 13, judge whether to reach the pulse power-up time, if do not reach, vertically the odd number electrode adds 0V, vertically the even numbers electrode adds positive voltage, otherwise execution in step 24;
Step 2 14, the zero clearing of pulse power-off time;
Step 2 15, judge whether to reach the pulse power-off time, if do not reach, vertically odd number electrode and even numbers electrode stop to power up, otherwise execution in step 26;
Step 2 16, the zero clearing of pulse power-up time;
Step 2 17, judge whether to reach transverse and longitudinal switching time, if reach execution in step three, otherwise return step 2 13.
The present invention has realized the symmetry of field intensity in the restoring area by to the control of electrode and the pulse of electric current, has set up the symmetrical electric field on space and physical significance.Because the remediation efficiency of anode region will be higher than cathode zone, single electrode of the present invention all intermittently is in anode state.The remediation efficiency of whole electric field improves.Each reparation unit is in the symmetrical electric field simultaneously, has farthest removed the dead angle, has solved the unbalanced problem of soil pH, has improved the remediation efficiency of system.
The present invention has following advantage:
1. by row/row electrode group being carried out polarity scanning conversion, set up symmetrical electric field, the field intensity utilization rate is improved at the Processing for removing dead angle.
2. the mass transport process of pollutant and microorganism has been strengthened in pulse current design, has reduced system energy consumption.
3. by automation control, simple to operate.
Description of drawings
Fig. 1 a is that the symmetrical electric field electrode of the present invention is arranged schematic diagram (solid dot represents anode, and hollow dots represents negative electrode, and 5 * 5 arrays vertically are positive and negative, positive and negative, positive layout);
Fig. 1 b is that the symmetrical electric field electrode of the present invention is arranged schematic diagram (solid dot represents anode, and hollow dots represents negative electrode, and 5 * 5 arrays laterally are yin, yang, yin, yang, cloudy layout);
Fig. 1 c is that the symmetrical electric field electrode of the present invention is arranged schematic diagram (solid dot represents anode, and hollow dots represents negative electrode, and 5 * 5 arrays laterally are positive and negative, positive and negative, positive layout);
Fig. 1 d is that the symmetrical electric field electrode of the present invention is arranged schematic diagram (solid dot represents anode, and hollow dots represents negative electrode, and 5 * 5 arrays vertically are yin, yang, yin, yang, cloudy layout);
Fig. 2 is the variable in distance curve of soil pH in the repair process of the present invention;
Fig. 3 is the time changing curve of the soil moisture in the repair process of the present invention;
Fig. 4 is the variable in distance curve of the soil organism in the repair process of the present invention;
Fig. 5 is the time clearance change curve of pollutant in the repair process of the present invention;
Fig. 6 is control circuit schematic diagram (comprising breaker and Switching Power Supply);
Fig. 7 is control circuit schematic diagram (comprising Programmable Logic Controller);
Fig. 8-1 is the control program flow chart of one embodiment of the invention Programmable Logic Controller storage among Fig. 7;
Fig. 8-2 is the control program flow chart of another embodiment of the present invention Programmable Logic Controller storage among Fig. 7;
Fig. 8-3 is the continuous figure of Fig. 8-2;
Fig. 9 is the symmetrical electric field electrode arrangement architecture of embodiment of system of the present invention connection diagram.
The specific embodiment
Below in conjunction with embodiment and accompanying drawing the present invention is described in further detail.
Embodiment 1
The present embodiment repair process adopts symmetrical electric field form, that is: the some electric-field intensity that equates with each electrode distance in the restoring area is identical, and the migration form of material is identical in electric field.Arrange electrode based on the grid mode, electrode in the restoring area is implemented electronic control, electrode is being carried out the periodical anode and cathode polarity switching; Mode by electric scanning goes/method of operation of the conversion of row group electrode, and eliminate and repair the dead angle.
The present embodiment adopts the autogamy oil-polluted soils.Cleaning soil is brown earth, removes macroscopic deadwood remains.The air-dry rear sieve of crossing 2mm of Indoor Natural.Crude oil picks up from Chinese Daqing oil field.Be mixed with the oil-polluted soils that oil content is 20mg/g.Place behind the natural air drying 7 days for subsequent use.
In contaminated soil, add the mix bacterium agent for the Daqing oil field oil degradation.Microbial inoculum consists of Arthrobacter globiformis (Arthrobacter globiformis), crabstick tumefaciens (Clavibacter xyli), wilting bacillus pumilis (Curtobacterium flaccumfaciens), bacillus subtilis (Bacillus subtilis), pseudomonas aeruginosa (Pseudomonas aeruginosa), bacillus (Bacillus sp.).After geometric ratio mixed, the dosage that is added in the soil was 0.01ml/g.
The soil chamber is that foursquare lucite is made, long 100cm, wide 100cm, high 10cm.System of the present invention consists of symmetrical electric field structure by M * N matrix electrodes, and the some electric-field intensity that equates with each electrode distance in the restoring area is identical; Described symmetrical electric field structure is realized the full symmetric structure on electric field space and the field intensity for by row/row electrode group being carried out polarity scanning conversion; Specific as follows:
Referring to Fig. 1 a~1d and Fig. 9, repair system of the present invention: consist of symmetrical electric field structure by 5 * 5 matrix electrodes, the some electric-field intensity that equates with each electrode distance in the restoring area is identical; Described symmetrical electric field structure is realized the full symmetric structure on electric field space and the field intensity for by row/row electrode group being carried out polarity scanning conversion; At two power supply relays of each electrode configuration, link to each other with the power supply relay of adjacent transverse, longitudinal electrode and the control circuit of control impuls electric current by wire respectively, its electronic control mode refers to adopt pulse current; Reduce the reparation energy consumption by electric current being carried out pulse control.
Shown in Fig. 6,7, described repair system comprises:
One circuit breaker Q F, circuit breaker Q F connects external power supply, selects bipolar 6A breaker, and circuit is played a protective role;
One Switching Power Supply GS, Switching Power Supply GS input termination circuit breaker Q F, output 24V and 0V voltage, PLC links to each other with Programmable Logic Controller, and PLC provides power supply for Programmable Logic Controller.
One Programmable Logic Controller PLC, Programmable Logic Controller PLC has control program, selects Siemens S7-200 product, by control program whole system is controlled;
A plurality of relays comprise control relay, and described control relay coil negative pole is received Switching Power Supply GS negative pole; The control relay coil electrode receives Programmable Logic Controller PLC control signal; Also comprise the power supply relay that links to each other with M * N matrix electrodes and control relay; Specific as follows:
1st, an end of 3,5,7,9,10 control relay KA1, KA3, KA5, KA7, KA9, KA10 normally opened contact is connected to positive source, and an end of the 2nd, 4,6,8 control relay KA2, KA4, KA6, KA8 normally opened contact is connected to power cathode; The 1st receives with horizontal odd number with 2 control relay KA1 and the other end of KA2 normally opened contact and to arrange on the 25th electrode 25 that electrode links to each other, the 3rd receives with horizontal even numbers with 4 control relay KA3 and the other end of KA4 normally opened contact and to arrange on the 6th electrode 6 that electrode links to each other, the 5th receives vertical odd number with 6 control relay KA5 and the other end of KA6 normally opened contact arranges on the 1st electrode 1 that electrode links to each other, and the 7th receives on the 22nd electrode 22 that vertical even numbers arrangement electrode links to each other with 8 control relay KA7 and the other end of KA8 normally opened contact; Two of the 11st~30 power supply relay KA11-KA30 normally opened contact terminates on horizontal adjacent two electrodes; Two of the 31st~50 power supply relay KA31-KA50 normally opened contact terminates on vertical adjacent two electrodes.All control relay coil negative poles are received Switching Power Supply GS negative pole; The 1st~10 control relay KA1-KA10 coil electrode receives Programmable Logic Controller PLC control signal; The 11st~30 power supply relay KA11-KA30 coil electrode is received the other end of the 9th control relay KA9 normally opened contact that links to each other with transversely arranged electrode; The 31st~50 power supply relay KA31-KA50 coil electrode is received the other end of the 10th control relay KA10 normally opened contact that links to each other with the longitudinal arrangement electrode.
Wherein, the 1st control relay KA1 determines whether be that horizontal odd number electrode adds 24V; The 2nd control relay KA2 determines whether to be that horizontal odd number electrode adds 0V, and whether the 3rd control relay KA3 determines is the relay of horizontal even numbers electrode adds 24V, and whether the 4th control relay KA4 determines is that horizontal even numbers electrode adds 0V; Whether the 5th control relay KA5 determines is that vertical odd number electrode adds 24V, whether the 6th control relay KA6 determines is that vertical odd number electrode adds 0V, whether the 7th control relay KA7 determines is the relay of vertical even numbers electrode adds 24V, and whether the 8th control relay KA8 determines is that vertical even numbers electrode adds 0V; Whether closure determines whether laterally powering up the normally opened contact of the 9th control relay KA9 by controlling the 11st~30 power supply relay KA11-KA30; Whether closure determines whether vertically powering up the normally opened contact of the 10th control relay KA10 by controlling the 31st~50 power supply relay KA31-KA50.
Referring to Fig. 8-1, the course of work is by being stored in the control program realization among the Programmable Logic Controller PLC, and idiographic flow is:
Step 1, parameters do not arrange the wait parameters such as parameter;
Step 2, parameter judge whether start button is pressed after setting completed, as press automatically in service and execution in step three of system mode demonstration, otherwise system shows that in the standby, start button is pressed in wait;
Step 3, judge whether stop button is pressed, as press stop button, system mode shows in the standby, and execution in step two; Otherwise execution in step four;
Step 4, transverse and longitudinal zero clearing switching time;
Step 5, horizontal odd number electrode add 24V, laterally the even numbers electrode adds 0V;
Step 6, judge whether to reach transverse and longitudinal switching time (the present embodiment is 1 minute), if reach execution in step seven, otherwise execution in step five and step 6;
Step 7, transverse and longitudinal zero clearing switching time;
Step 8, vertical odd number electrode add 24V, vertically the even numbers electrode adds 0V;
Step 9, judge whether to reach transverse and longitudinal switching time (the present embodiment is 1 minute), if reach execution in step ten, otherwise execution in step eight and step 9;
Step 10, transverse and longitudinal zero clearing switching time;
Step 11, horizontal odd number electrode add 0V, laterally the even numbers electrode adds 24V;
Step 12, judge whether to reach transverse and longitudinal switching time (the present embodiment is 1 minute), if reach execution in step 13, otherwise execution in step 11 and step 12;
Step 13, transverse and longitudinal zero clearing switching time;
Step 14, vertical odd number electrode add 0V, vertically the even numbers electrode adds 24V;
Step 15, judge whether to reach transverse and longitudinal switching time (the present embodiment is 1 minute), if reach execution in step four, otherwise execution in step 13 and step 14.
The 31st~50 power supply relay KA31-KA50 is closed as shown in Figure 9, and the 5th control relay KA5 and the 8th control relay KA8 are closed.So vertical odd number electrode adds 24V, and vertically the even numbers electrode adds 0V (seeing accompanying drawing 1a).
The 11st~30 power supply relay KA11-KA30 is closed, and the 2nd control relay KA2 and the 3rd control relay KA3 are closed.So horizontal odd number electrode adds 0V, and laterally the even numbers electrode adds 24V (seeing accompanying drawing 1b).
The 31st~50 power supply relay KA31-KA50 is closed, and the 6th control relay KA6 and the 7th control relay KA7 are closed.So vertical odd number electrode adds 0V, and vertically the even numbers electrode adds 24V (seeing accompanying drawing 1d).
The 11st~30 power supply relay KA11-KA30 is closed, and the 1st control relay KA1 and the 4th control relay KA4 are closed.So horizontal odd number electrode adds 24V, and laterally the even numbers electrode adds 0V (seeing accompanying drawing 1c).
Electrode adopts the graphite inert electrode, and described electrode diameter is 0.5cm-5cm, and length is 6cm-150cm (the present embodiment electrode diameter 0.5cm, long 6cm), between per two electrodes in restoring area the transverse and longitudinal distance all equal, be 0.2m.At two power supply relays of each electrode configuration, one of them power supply relay links to each other with the power supply relay of adjacent transverse, longitudinal electrode and the power supply of control row, column conversion respectively by wire; Its electronic control is that electrode in the matrix is connected respectively on the positive and negative electrode of dc source, the electric field of field intensity full symmetric when forming a space and operation.Per 1 minute conversion one-time electrode polarity.Applying direct current electric field, the electric-force gradient 1V/cm at electrode two ends.Soil moisture moisture recorder record imports signal into simultaneously computer and carries out Real Time Monitoring and data analysis.Soil moisture is constant to be 20%.Choosing sampled point is apart from anode 0cm, 4cm, 8cm, 12cm, 16cm, 20cm.Adopted one time sample every 20 days.Processing time is 100 days.Take without electric field action as control group.Monitoring index is soil pH value, temperature, the organic variation and the variation of oil clearance.
By the polarity of control electrode, well solved the acidifying phenomenon that in electronic repair process, occurs, make the stable of soil environment, the results are shown in Figure 2.DC Electric Field makes a part of electric energy conversion become Joule heat, and the soil moisture that raise has been avoided the impact of external environment on soil effectively, the results are shown in Figure 3.By the polarity of control electrode, make electrode intermittently be in the stronger anode state of reaction, improved the utilization rate of electrode, accelerated its consumption efficiency for organic carbon, the results are shown in Figure 4.By the optimal design of electrode matrix, set up a space and field intensity full symmetric electric field, increased the electric field service area, strengthened the activity of edaphon, accelerated the degradation rate of organic pollution, the results are shown in Figure 5.
Subordinate list 1 is oil changes of contents testing result before and after electrokinetic process.
Oil changes of contents before and after subordinate list 1 electrokinetic process
Group Process Oil content before processing Oil content after processing Processing time (my god)
Control group Nothing 2% 1.9% 100
Experimental group 1 Microorganism 2% 1.5% 100
Experimental group 2 Electronic and microorganism 2% 0.7% 100
Embodiment 2
Difference from Example 1 is:
The soil chamber is that foursquare lucite is made, long 200cm, wide 200cm, high 20cm.Consist of symmetrical electric field structure by 6 * 6 matrix electrodes, insert the electrode that stainless steel is made, diameter 1cm, long 15cm, interelectrode distance are 0.4m.
Spray ammonium nitrate (NH to soil 4NO 3) and dipotassium hydrogen phosphate (K 2HPO 4) growth of microorganism desired nutritional solution.Accelerate the metabolism of microorganism.Repairing effect has improved 15% than embodiment 1.
Concrete outcome sees attached list 2.
Subordinate list 2 is oil changes of contents testing results before and after electrokinetic process.
Group Process Oil content before processing Oil content after processing Processing time (my god)
Control group Nothing 2% 1.9% 100
Experimental group 1 Microorganism 2% 1.5% 100
Experimental group 2 Electronic, microorganism, nutrient solution 2% 0.4% 100
Embodiment 3
Difference from Example 1 is:
Adopt cleaning soil, brown earth and Daqing crude oil are mixed with the oil-polluted soils that oil content is 20mg/g.Place behind the natural air drying 7 days for subsequent use.In automation control electrode polarity transfer process, adopt the mode (whether realizing by Power supply) of pulse current energising, continue energising after 1 minute, stop power supply after 20 seconds, per 5 minutes switching one-time electrode polarity in the pulse current galvanization, repetition pulse current electrifying step.Electrode adopts stainless steel to make inert electrode.Processing time is 100 days, take without electric field action as control group.
After oil-polluted soils was processed through 100 days, soil pH value was in neutral range, without significant change.The soil moisture is higher than indoor temperature, has effectively resisted the impact of outer bound pair soil environment.Concrete outcome sees attached list 3.
Subordinate list 3 is oil changes of contents testing results before and after electrokinetic process.
Oil changes of contents before and after subordinate list 3 electrokinetic process
Group Process Oil content before processing Oil content after processing Processing time (my god)
Control group Nothing 2% 1.9% 100
Experimental group 1 Microorganism 2% 1.5% 100
Experimental group 2 Electronic, microorganism, pulse current 2% 0.9% 100
After adding pulse current controlled condition, continue energising saves energy 40%, degradation efficiency reduces 10%, considers Energy Intensity Reduction, removes efficient higher, has reached energy-conservation purpose.
Referring to Fig. 8-2,8-3, the course of work is by being stored in the control program realization among the Programmable Logic Controller PLC, and idiographic flow is:
Step 1, parameters do not arrange the wait parameters such as parameter;
Step 2, parameter judge whether start button is pressed after setting completed, as press automatically in service and execution in step three of system mode demonstration, otherwise system shows that in the standby, start button is pressed in wait;
Step 3, judge whether stop button is pressed, as press stop button, system mode shows in the standby, and execution in step two; Otherwise execution in step four;
Step 4, transverse and longitudinal zero clearing switching time;
Step 5, judge whether to reach pulse power-up time (the present embodiment is 1 minute), if do not reach, laterally the odd number electrode adds 24V, laterally the even numbers electrode adds 0V, otherwise execution in step six;
Step 6, the zero clearing of pulse power-off time;
Step 7, judge whether to reach pulse power-off time (the present embodiment is 20 seconds), if do not reach, laterally odd number electrode and even numbers electrode stop to power up, otherwise execution in step eight;
Step 8, the zero clearing of pulse power-up time;
Step 9, judge whether to reach transverse and longitudinal switching time (the present embodiment is 5 minutes), if reach execution in step ten, otherwise execution in step five, step 6, step 7 and step 8;
Step 10, transverse and longitudinal zero clearing switching time;
Step 11, judge whether to reach pulse power-up time (the present embodiment is 1 minute), if do not reach, vertically the odd number electrode adds 24V, vertically the even numbers electrode adds 0V, otherwise execution in step 12;
Step 12, the zero clearing of pulse power-off time;
Step 13, judge whether to reach pulse power-off time (the present embodiment is 20 seconds), if do not reach, vertically odd number electrode and even numbers electrode stop to power up, otherwise execution in step 14;
Step 14, the zero clearing of pulse power-up time;
Step 15, judge whether to reach transverse and longitudinal switching time (the present embodiment is 5 minutes), if reach execution in step 16, otherwise execution in step 11, step 12, step 13 and step 14;
Step 10 six, transverse and longitudinal zero clearing switching time;
Step 10 seven, judge whether to reach pulse power-up time (the present embodiment is 1 minute), if do not reach, laterally the odd number electrode adds 0V, laterally the even numbers electrode adds 24V, otherwise execution in step 18;
Step 10 eight, the zero clearing of pulse power-off time;
Step 10 nine, judge whether to reach pulse power-off time (the present embodiment is 20 seconds), if do not reach, laterally odd number electrode and even numbers electrode stop to power up, otherwise execution in step 20;
Step 2 ten, the zero clearing of pulse power-up time;
Step 2 11, judge whether to reach transverse and longitudinal switching time (the present embodiment is 5 minutes), if reach execution in step 22, otherwise execution in step 17, step 10 eight, step 10 nine and step 2 ten;
Step 2 12, transverse and longitudinal zero clearing switching time;
Step 2 13, judge whether to reach pulse power-up time (the present embodiment is 1 minute), if do not reach, vertically the odd number electrode adds 0V, vertically the even numbers electrode adds 24V, otherwise execution in step 24;
Step 2 14, the zero clearing of pulse power-off time;
Step 2 15, judge whether to reach pulse power-off time (the present embodiment is 20 seconds), if do not reach, vertically odd number electrode and even numbers electrode stop to power up, otherwise execution in step 26;
Step 2 16, the zero clearing of pulse power-up time;
Step 2 17, judge whether to reach transverse and longitudinal switching time (the present embodiment is 5 minutes), if reach execution in step three, otherwise execution in step 23, step 2 14, step 2 15 and step 2 16.
Embodiment 4
Difference from Example 1 is:
Oil-polluted soils picks up near the contaminated area Panjin Liaohe Oil Field, soil oil content average out to 50mg/g.Soil is piled long 13.5 meters, wide 13.5 meters, the high 2 meters earthwork, the present embodiment consists of symmetrical electric field structure by 9 * 9 matrix electrodes, inserts the electrode that stainless steel is made, electrode diameter 5cm, long 150cm.Adjacent two interelectrode distances are 1.5m, set up a space symmetr electric field.Do not add microbial inoculum, utilize indigenous microorganism in the soil.Sampled point is apart from electrode 5cm, 15cm, 25cm, 35cm, 45cm.Adopted sample one time every 20 days, the processing time is 100 days.Take non-processor soil as contrast.Concrete outcome sees attached list 4.
Subordinate list 4 is oil changes of contents testing results before and after electrokinetic process.
Oil changes of contents before and after subordinate list 4 electrokinetic process
Group Process Oil content before processing Oil content after processing Processing time (my god)
Control group Nothing 5% 4.9% 100
Experimental group 1 Electronic 5% 1.7% 100
The present invention is by going/conversion of row group electrode to the pulse of electric current control with to the mode by electric scanning, set up space and field intensity full symmetric electric field, solved anode acidifying problem, reduced energy consumption, solve the processing Dead Core Problems, improved the removal efficient of organic polluted soil.

Claims (6)

1. organic pollution soil repair system is characterized in that comprising:
One breaker (QF), breaker (QF) connects external power supply;
One Switching Power Supply (GS), Switching Power Supply (GS) input termination breaker (QF), output links to each other with Programmable Logic Controller (PLC);
One Programmable Logic Controller (PLC), Programmable Logic Controller (PLC) has control program, by control program whole system is controlled;
Control relay, the control relay coil electrode receives Programmable Logic Controller (PLC) control signal; Also comprise the power supply relay that links to each other with M * N matrix electrodes and control relay,
Wherein, 1st, an end of 3,5,7,9,10 control relays (KA1, KA3, KA5, KA7, KA9, KA10) normally opened contact is connected to Switching Power Supply (GS) positive pole, and an end of the 2nd, 4,6,8 control relays (KA2, KA4, KA6, KA8) normally opened contact is connected to Switching Power Supply (GS) negative pole; The power supply relay coil electrode that links to each other with transversely arranged electrode in the power supply relay is received the other end with the 9th control relay normally opened contact; The power supply relay coil electrode that links to each other with the longitudinal arrangement electrode is received the other end with the 10th control relay normally opened contact; The 1st receives with horizontal odd number with the other end of 2 control relays (KA1 and KA2) normally opened contact and to arrange on the power supply relay that electrode links to each other, the 3rd receives with horizontal even numbers with the other end of 4 control relays (KA3 and KA4) normally opened contact and to arrange on the power supply relay that electrode links to each other, the 5th receives vertical odd number with the other end of 6 control relays (KA5 and KA6) normally opened contact arranges on the power supply relay that electrode links to each other, and the 7th receives on the power supply relay that vertical even numbers arrangement electrode links to each other with the other end of 8 control relays (KA7 and KA8) normally opened contact; Laterally, vertically adjacent two electrodes link together by the two ends of power supply relay normally opened contact respectively.
2. by the described organic pollution soil repair system of claim 1, it is characterized in that: described electrode diameter is 0.5cm-5cm, and length is 6cm-150cm; At two power supply relays of each electrode configuration, link to each other with the power supply relay of adjacent transverse, longitudinal electrode and the Switching Power Supply (GS) of control row, column conversion by wire respectively.
3. by the described organic pollution soil repair system of claim 1, it is characterized in that: wherein adjacent two electrodes spread length in restoring area is 0.20m-1.5m.
4. by the described organic pollution soil repair system of claim 1, it is characterized in that: the some electric-field intensity that wherein each interelectrode distance is equal is identical, is symmetrical structure on space and the field intensity.
5. by the described organic pollution soil repair system of claim 1, it is characterized in that: described control program flow process is as follows:
Step 1, parameters do not arrange the wait parameters such as parameter;
Step 2, judge whether start button is pressed, as press system mode and show automatically in service and execution in step three, otherwise system shows and waits for and press start button in the standby;
Step 3, judge whether stop button is pressed, as press stop button, system mode shows in the standby, and execution in step two; Otherwise execution in step four;
Step 4, transverse and longitudinal zero clearing switching time;
Step 5, horizontal odd number electrode add positive voltage, laterally the even numbers electrode adds negative voltage;
Step 6, judge whether to reach transverse and longitudinal switching time, if reach execution in step seven, otherwise execution in step five and step 6;
Step 7, transverse and longitudinal zero clearing switching time;
Step 8, vertical odd number electrode add positive voltage, vertically the even numbers electrode adds negative voltage;
Step 9, judge whether to reach transverse and longitudinal switching time, if reach execution in step ten, otherwise execution in step eight and step 9;
Step 10, transverse and longitudinal zero clearing switching time;
Step 11, horizontal odd number electrode add negative voltage, laterally the even numbers electrode adds positive voltage;
Step 12, judge whether to reach transverse and longitudinal switching time, if reach execution in step 13, otherwise execution in step 11 and step 12;
Step 13, transverse and longitudinal zero clearing switching time;
Step 14, vertical odd number electrode add negative voltage, vertically the even numbers electrode adds positive voltage;
Step 15, judge whether to reach transverse and longitudinal switching time, if reach execution in step four, otherwise execution in step 13 and step 14.
6. by the described organic pollution soil repair system of claim 1, it is characterized in that: described control program flow process is:
Step 1, parameters do not arrange the wait parameters such as parameter;
Step 2, judge whether start button is pressed, as press system mode and show automatically in service and execution in step three, otherwise system shows and waits for and press start button in the standby;
Step 3, judge whether stop button is pressed, as press stop button, system mode shows in the standby, and execution in step two; Otherwise execution in step four;
Step 4, transverse and longitudinal zero clearing switching time;
Step 5, judge whether to reach the pulse power-up time, if do not reach, laterally the odd number electrode adds positive voltage, laterally the even numbers electrode adds negative voltage, otherwise execution in step six;
Step 6, the zero clearing of pulse power-off time;
Step 7, judge whether to reach the pulse power-off time, if do not reach, laterally odd number electrode and even numbers electrode stop to power up, otherwise execution in step eight;
Step 8, the zero clearing of pulse power-up time;
Step 9, judge whether to reach transverse and longitudinal switching time, if reach execution in step ten, otherwise return step 5;
Step 10, transverse and longitudinal zero clearing switching time;
Step 11, judge whether to reach the pulse power-up time, if do not reach, vertically the odd number electrode adds positive voltage, vertically the even numbers electrode adds negative voltage, otherwise execution in step 12;
Step 12, the zero clearing of pulse power-off time;
Step 13, judge whether to reach the pulse power-off time, if do not reach, vertically odd number electrode and even numbers electrode stop to power up, otherwise execution in step 14;
Step 14, the zero clearing of pulse power-up time;
Step 15, judge whether to reach transverse and longitudinal switching time, if reach execution in step 16, otherwise return step 11;
Step 10 six, transverse and longitudinal zero clearing switching time;
Step 10 seven, judge whether to reach the pulse power-up time, if do not reach, laterally the odd number electrode adds negative voltage, laterally the even numbers electrode adds positive voltage, otherwise execution in step 18;
Step 10 eight, the zero clearing of pulse power-off time;
Step 10 nine, judge whether to reach the pulse power-off time, if do not reach, laterally odd number electrode and even numbers electrode stop to power up, otherwise execution in step 20;
Step 2 ten, the zero clearing of pulse power-up time;
Step 2 11, judge whether to reach transverse and longitudinal switching time, if reach execution in step 22, otherwise return step 10 seven;
Step 2 12, transverse and longitudinal zero clearing switching time;
Step 2 13, judge whether to reach the pulse power-up time, if do not reach, vertically the odd number electrode adds negative voltage, vertically the even numbers electrode adds positive voltage, otherwise execution in step 24;
Step 2 14, the zero clearing of pulse power-off time;
Step 2 15, judge whether to reach the pulse power-off time, if do not reach, vertically odd number electrode and even numbers electrode stop to power up, otherwise execution in step 26;
Step 2 16, the zero clearing of pulse power-up time;
Step 2 17, judge whether to reach transverse and longitudinal switching time, if reach execution in step three, otherwise return step 2 13.
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Application publication date: 20111228

Assignee: Shengli Oilfield Jindao industry limited liability company of agro industry and Trade Company

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